Biofertilizer application of whole and lipid-extracted microalgal biomass generated using nutrient-supplemented wastewater

-

 

     

      The application of biofertilizers derived from whole and lipid-extracted microalgal biomass presents a sustainable approach to enhancing soil fertility and crop productivity. Utilizing nutrient-supplemented wastewater for cultivating microalgae not only supports biomass generation but also contributes to wastewater treatment and nutrient recycling. Whole microalgal biomass is rich in essential nutrients, organic matter, and bioactive compounds, improving soil structure and microbial activity. Lipid-extracted biomass, a by-product of biofuel production, retains significant levels of proteins, carbohydrates, and minerals, making it an efficient biofertilizer. This circular approach integrates wastewater management, renewable energy, and sustainable agriculture, promoting eco-friendly farming practices while reducing dependency on chemical fertilizers.

#Biofertilizer #MicroalgalBiomass #WastewaterTreatment #SustainableAgriculture #NutrientRecycling #LipidExtractedBiomass #BiofuelByproducts #SoilFertility #OrganicFarming #EcoFriendlyFarming #SoilHealth #GreenFertilizer #MicroalgaeApplication #RenewableAgriculture #AgroBiotechnology





For Enquiries: info@soilscientists.org

Get Connected Here

-------------------------- 
--------------------------







Comments

Post a Comment

Popular posts from this blog

Biochar-influenced solubilization and mineralization mechanisms of phosphorus in saline-sodic soils

-
      The application of biochar in saline-sodic soils plays a crucial role in enhancing phosphorus (P) availability through improved solubilization and mineralization mechanisms. Biochar, due to its high surface area, porous structure, and functional groups, can adsorb excess sodium and reduce soil pH, creating favorable conditions for phosphorus dynamics. It enhances microbial activity and supports phosphorus-solubilizing bacteria and fungi, which convert insoluble phosphorus compounds into bioavailable forms. Moreover, biochar can interact with organic matter and soil minerals to release occluded phosphorus and reduce fixation by calcium, magnesium, and sodium ions. This dual function of improving soil structure and stimulating biochemical processes leads to increased phosphorus uptake by plants, especially in nutrient-deficient and saline-affected environments. #Biochar #PhosphorusSolubilization #PhosphorusMineralization #SalineSodicSoil #SoilAmendment #SustainableAgr...
Read more

Natural and artificial evolution of acetolactate synthase for crop breeding

-
        The natural and artificial evolution of acetolactate synthase (ALS), a key enzyme in the biosynthesis of branched-chain amino acids, plays a significant role in advancing crop breeding strategies. Naturally occurring mutations in ALS genes have provided insights into herbicide resistance mechanisms, while artificial evolution through gene editing and mutagenesis has enabled the development of crop varieties with improved resistance to ALS-inhibiting herbicides. This dual approach not only enhances crop resilience but also contributes to sustainable agricultural practices by reducing chemical inputs and enabling precision breeding techniques. As a pivotal target for both research and practical application, ALS evolution represents a critical interface between molecular biology and modern crop improvement. Hashtags: #AcetolactateSynthase #ALSResistance #CropBreeding #GeneEditing #HerbicideResistance #PlantBiotechnology #MolecularBreeding #SustainableAgricultu...
Read more

Image analysis method combined with machine learning for the prediction of soil and air quality

-
      The integration of image analysis methods with machine learning has opened new frontiers in predicting soil and air quality with greater accuracy and efficiency. High-resolution satellite imagery, drone-captured visuals, and hyperspectral imaging are now widely used to extract visual features such as color variations, texture patterns, vegetation health, and land-use changes. These visual indicators are then fed into machine learning models—such as convolutional neural networks (CNNs) and support vector machines (SVMs)—to identify correlations with soil parameters (like moisture, pH, organic content) and air pollutants (like particulate matter, NOx, and CO₂). This data-driven approach enables continuous environmental monitoring, early warning systems, and sustainable land management strategies. The fusion of visual data with predictive analytics not only enhances spatial coverage but also minimizes the need for invasive sampling, offering a scalable solution for sm...
Read more